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Genetic ‘tour de force’ reveals worm’s workings

The extraordinary one-by-one analysis of the function of nearly 17,000 genes is already helping scientists understand human biology

By simply feeding roundworms genetically-modified bacteria, UK scientists have conducted an extraordinary one-by-one analysis of the function of nearly 86 per cent of the worms 20,000 genes. US scientists have put the data to immediate use to search for genes that regulate fat storage.

The tiny Caenorhabditis elegans was the first animal to have its genome sequenced. However, identifying all its genes does not tell scientists how they control the animal鈥檚 development or behaviour.

So to reveal their function, biologists used the sequence information along with a technique called RNA-mediated interference (RNAi) to temporarily inactivate each of nearly 17,000 of the worm鈥檚 genes.

鈥淚t鈥檚 a tour de force of molecular genetics and a wonderful use of the full genome sequence,鈥 says Paul Sternberg, at Caltech, California.

鈥淭he power of the technique is incredible. It is the first time anybody has looked at the function of nearly every gene in an animal,鈥 says Julie Ahringer at Cambridge University, UK, who led the study. She told 快猫短视频 if the functions can be found for all the genes an animal has, the complex process of how they work together can be understood.

Furthermore, half the worm genes have human counterparts, so discovering the function of the worm鈥檚 genes will help explore what human genes do.

Bugs for dinner

In nature, RNAi acts as a defence mechanism to protect cells against retroviruses, but it has been cleverly adapted by researchers. The technique involves designing double-stranded RNA molecules that match a sequence in the RNA produced by the gene you want to inactivate. The molecules attach to the latter, targeting its destruction and thereby blocking the genes activity.

A quirk of the physiology of C. elegans means that such gene inactivation can occur simply if the RNAi molecule is eaten by the worm. And luckily for the researchers, the preferred diet of this little worm is the bug that for decades has been used in thousands of lab experiments 鈥 the bacterium E coli. Simply inserting the RNAi sequences into E coli and allowing the worms to feed resulted in the chosen gene being knocked out.

The technique is remarkably fast. 鈥淚t used to take a year to knock out a gene, now with RNAi one person can knock-out every gene in just a few months,鈥 says Ahringer.

Fluorescent fat

The data gathered can now be used to investigate particular biological processes, such as ageing or, as Gary Ruvkun at Harvard Medical School, Boston, and colleagues have now done, body fat storage.

Along with the RNAi molecules, the researchers included a fluorescent dye in the worm鈥檚 bug diet. This enables fat droplets in the intestinal cells of living worms to be visualised.

They then scoured the 17,000 inactivated genes to find those involved in regulating body fat. Over 300 genes were found that reduced the amount of body fat upon inactivation, and over 100 were identified that increased it. About 200 have human counterparts that may represent new targets for anti-obesity drugs.

鈥淢apping in the human genome is like navigating along the seashore and we have just placed 200 lighthouses. Human geneticists should take note,鈥 says Ruvkun.

Journal reference: Nature (vol 421, p 231, 268)

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